.TH "xdp-loader" "8" "SEPTEMBER 12, 2024" "V1.5.7" "XDP program loader"

.SH "NAME"
xdp-loader \- an XDP program loader
.SH "SYNOPSIS"
.PP
XDP-loader is a simple loader for XDP programs with support for attaching
multiple programs to the same interface. To achieve this it exposes the same
load and unload semantics exposed by the libxdp library. See the \fIlibxdp(3)\fP man
page for details of how this works, and what kernel features it relies on.

.SS "Running xdp-loader"
.PP
The syntax for running xdp-loader is:

.RS
.nf
\fCxdp-loader COMMAND [options]

Where COMMAND can be one of:
       load        - load an XDP program on an interface
       unload      - unload an XDP program from an interface
       status      - show current XDP program status
       features    - show XDP features supported by the NIC
       clean       - clean up detached program links in XDP bpffs directory
       help        - show the list of available commands
\fP
.fi
.RE

.PP
Each command, and its options are explained below. Or use \fIxdp\-loader COMMAND
\-\-help\fP to see the options for each command.

.SH "The LOAD command"
.PP
The \fIload\fP command loads one or more XDP programs onto an interface.

.PP
The syntax for the \fIload\fP command is:

.PP
\fIxdp\-loader load [options] <ifname> <programs>\fP

.PP
Where \fI<ifname>\fP is the name of the interface to load the programs onto, and the
\fI<programs>\fP is one or more file names containing XDP programs. The programs
will be loaded onto the interface in the order of their preference, as
specified by the program metadata (see \fBlibxdp(3)\fP).

.PP
The supported options are:

.SS "-m, --mode <mode>"
.PP
Specifies which mode to load the XDP program to be loaded in. The valid values
are 'native', which is the default in-driver XDP mode, 'skb', which causes the
so-called \fIskb mode\fP (also known as \fIgeneric XDP\fP) to be used, 'hw' which causes
the program to be offloaded to the hardware, or 'unspecified' which leaves it up
to the kernel to pick a mode (which it will do by picking native mode if the
driver supports it, or generic mode otherwise). Note that using 'unspecified'
can make it difficult to predict what mode a program will end up being loaded
in. For this reason, the default is 'native'. Note that hardware with support
for the 'hw' mode is rare: Netronome/Corigine cards (using the 'nfp' driver) are
the only devices with support for this in the mainline Linux kernel.

.SS "-p, --pin-path <path>"
.PP
This specifies a root path under which to pin any maps that define the 'pinning'
attribute in their definitions. This path must be located on a \fIbpffs\fP file
system. If not set, maps will not be pinned, even if they specify pinning in
their definitions. When pinning maps, if the pinned location for a map already
exist, the map pinned there will be reused if it is compatible with the type of
the map being loaded.

.SS "-s, --section <section>"
.PP
Specify which ELF section to load the XDP program(s) from in each file. The
default is to use the first program in each file. If this option is set, it
applies to all programs being loaded.

.SS "-n, --prog-name <prog_name>"
.PP
Specify which BPF program with the name to load the XDP program(s) from in each
file. The default is to use the first program in each file. Only one of
--section and --prog-name may be specified. If this option is set, it applies to
all programs being loaded.

.SS "-P, --prio <priority>"
.PP
Specify the priority to load the XDP program(s) with (this affects the order of
programs running on the interface). The default is to use the value from the metadata
in the program ELF file, or a value of 50 if the program has no such metadata.
If this option is set, it applies to all programs being loaded.

.SS "-A, --actions <actions>"
.PP
Specify the "chain call actions" of the loaded XDP program(s). These are the XDP
actions that will cause the next program loaded on the interface to be called,
instead of returning immediately. The default is to use the value set in the metadata
in the program ELF file, or XDP_PASS if no such metadata is set. If this option is set,
it applies to all programs being loaded.

.SS "-v, --verbose"
.PP
Enable debug logging. Specify twice for even more verbosity.

.SS "-h, --help"
.PP
Display a summary of the available options

.SH "The UNLOAD command"
.PP
The \fIunload\fP command is used for unloading programs from an interface.

.PP
The syntax for the \fIunload\fP command is:

.PP
\fIxdp\-loader unload [options] <ifname>\fP

.PP
Where \fI<ifname>\fP is the name of the interface to load the programs onto. Either
the \fI\-\-all\fP or \fI\-\-id\fP options must be used to specify which program(s) to unload.

.PP
The supported options are:

.SS "-i, --id <id>"
.PP
Unload a single program from the interface by ID. Use \fIxdp\-loader status\fP to
obtain the ID of the program being unloaded. If this program is the last program
loaded on the interface, the dispatcher program will also be removed, which
makes the operation equivalent to specifying \fI\-\-all\fP.

.SS "-a, --all"
.PP
Unload all XDP programs on the interface, as well as the multi-program
dispatcher.

.SS "-v, --verbose"
.PP
Enable debug logging. Specify twice for even more verbosity.

.SS "-h, --help"
.PP
Display a summary of the available options

.SH "The STATUS command"
.PP
The \fIstatus\fP command displays a list of interfaces in the system, and the XDP
program(s) loaded on each interface. For each interface, a list of programs are
shown, with the run priority and "chain actions" for each program. See the
section on program metadata for the meaning of this metadata.

.SS "-v, --verbose"
.PP
Enable debug logging. Specify twice for even more verbosity.

.SS "-h, --help"
.PP
Display a summary of the available options

.SH "The FEATURES command"
.PP
The \fIfeatures\fP command displays the XDP features supported by the NIC.

.PP
Currently supported XDP features are:

.SS "NETDEV_XDP_ACT_BASIC"
.PP
The networking device has basic support for running XDP programs, and can
handle the base set of return codes (XDP_ABORTED, XDP_DROP, XDP_PASS, XDP_TX).

.SS "NETDEV_XDP_ACT_REDIRECT"
.PP
The network device supports handling the XDP_REDIRECT return code. This means
packets can be redirected from this device by XDP.

.SS "NETDEV_XDP_ACT_NDO_XMIT"
.PP
The networking interfaces implements the ndo_xdp_xmit callback. This means
packets can be redirected to this device by XDP.

.SS "NETDEV_XDP_ACT_XSK_ZEROCOPY"
.PP
The networking device supports AF_XDP in zero copy mode.

.SS "NETDEV_XDP_ACT_HW_OFFLOAD"
.PP
The networking device supports XDP hw offloading.

.SS "NETDEV_XDP_ACT_RX_SG"
.PP
The networking device supports non-linear XDP frames on the receive side.
This means XDP can be used with big MTUs on this device (if the XDP program
is compiled with fragments support)

.SS "NETDEV_XDP_ACT_NDO_XMIT_SG"
.PP
The networking device supports non-linear XDP frames on the transmit side. This
means non-linear frames can be redirected to this device.

.SH "The CLEAN command"
.PP
The syntax for the \fIclean\fP command is:

.PP
\fIxdp\-loader clean [options] [ifname]\fP

.PP
The \fIclean\fP command cleans up any detached program links in the XDP bpffs
directory.  When a network interface disappears, any programs loaded in software
mode (e.g. skb, native) remain pinned in the bpffs directory, but become
detached from the interface. These need to be unlinked from the filesystem. The
\fIclean\fP command takes an optional interface parameter to only unlink detached
programs corresponding to the interface.  By default, all detached programs for
all interfaces are unlinked.

.PP
The supported options are:

.SS "-v, --verbose"
.PP
Enable debug logging. Specify twice for even more verbosity.

.SS "-h, --help"
.PP
Display a summary of the available options

.SH "Examples"
.PP
To load an XDP program on the eth0 interface simply do:

.RS
.nf
\fC# xdp-loader load eth0 xdp_drop.o
# xdp-loader status

CURRENT XDP PROGRAM STATUS:

Interface        Prio  Program name     Mode     ID   Tag               Chain actions
-------------------------------------------------------------------------------------
lo               <no XDP program>
eth0                   xdp_dispatcher   native   50   d51e469e988d81da
 =>              50    xdp_drop                  55   57cd311f2e27366b  XDP_PASS

\fP
.fi
.RE

.PP
Which shows that a dispatcher program was loaded on the interface, and the
xdp_drop program was installed as the first (and only) component program after
it. In this instance, the program does not specify any of the metadata above, so
the defaults (priority 50 and XDP_PASS as its chain call action) was used.

.PP
To use the automatic map pinning, include the \fIpinning\fP attribute into the map
definition in the program, something like:

.RS
.nf
\fCstruct {
	__uint(type, BPF_MAP_TYPE_ARRAY);
	__uint(max_entries, 10);
	__type(key, __u32);
	__type(value, __u64);
	__uint(pinning, LIBBPF_PIN_BY_NAME);
} my_map SEC(".maps");
\fP
.fi
.RE

.PP
And load it with the \fI\-\-pin\-path\fP attribute:

.RS
.nf
\fC# xdp-loader load eth0 my_prog.o --pin-path /sys/fs/bpf/my-prog
\fP
.fi
.RE

.PP
This will pin the map at \fI/sys/fs/bpf/my\-prog/my_map\fP. If this already exists,
the pinned map will be reused instead of creating a new one, which allows
different BPF programs to share the map.

.SH "SEE ALSO"
.PP
\fIlibxdp(3)\fP for details on the XDP loading semantics and kernel compatibility
requirements.

.SH "BUGS"
.PP
Please report any bugs on Github: \fIhttps://github.com/xdp-project/xdp-tools/issues\fP

.SH "AUTHOR"
.PP
xdp-loader and this man page were written by Toke Høiland-Jørgensen.
